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Chemistry of free transition metal clusters
André FielickeFHI Berlin, Molecular Physics
http://www.fhi-berlin.mpg.de/mp/fielicke/
How can free clusters help the understanding of heterogeneous catalysts?
nano-disperse gold catalysts
Literature
R. L. Johnston: Atomic and Molecular Clusters, 2002, (Taylor & Francis, London)
M. B. Knickelbein, Reactions of Transition Metal Clusters with Small Molecules, Ann. Rev. Phys. Chem. 50, 79 (1999).
T. M. Bernhardt, Gas-phase kinetics and catalytic reactions of small silver and gold clusters, Int. J. Mass Spectr. 243, 1 (2005).
Y. D. Kim, Chemical properties of mass-selected coinage metal cluster anions: towards obtaining molecular-level understandingof nanocatalysis, Int. J. Mass Spectr. 238, 17 (2004).
B. Yoon et al., Charging Effects on Bonding and Catalyzed Oxidation of CO on Au8 Clusters on MgO, Science, 307, 403 (2005).
The Concept of “Active Sites”
Proc. Roy. Soc. [London] A 108 (1925) 105
CO hydrogenation on Ni
Observation: Catalyst can be deactivated by very small amounts of a poison
Clusters as subunits of surfaces?
Neglects binding within the surfaceFree clusters often may rearrange and can have very different electronic and geometric structures
Justes, D.R., Phd Thesis, Pennstate U (2004).M. Witko, M.; Hermann, K.; Tokarz, R., J. Electron. Spec. Rel. Phenom., 69 (1994) 89.
Motivations for the study of free metal clusters
• Fundamental aspectHow are properties emerging when going from the atom to the bulk?
• Model systemsi) (Defect-) Sites of a bulk surfaceii) Deposited nano-particles on a substrate
• Reference systemsTest and further development of theoretical methods
Clusters of atoms and molecules
• multiples of a simple subunit, e.g. Cn, Arn, or (H2O)n
• The cluster size n can vary and determines the properties
• Small clusters have (nearly) all atoms on the surface
Number of atoms
Surface atoms
radius [nm] 1 10 102
1 10 10310 104 105 106 107 108102
10 102 103 105104
„micro" „small" „large"
Clusternano/micro crystals
Experiments on free clusters
• Clusters in different charge states can be prepared and characterized, (including neutrals)
• Characterization is often performed in molecular beams or on trapped cluster ions (gas-phase)
• Most experiments use mass spectrometric detection
• Neutrals can be detected spectroscopically or after ionization via MS
• Effect of charge, size and composition can be studied.
Properties of clusters are changing with size
Scale:Volume n-1
Radius n-1/3
Surface n-2/3
Properties:Binding energiesIonization energiesReactivityMagnetism
Examples for non-scalable properties
Stability C60
H.W. Kroto, et al. Nature 318 (1985) 162.
Magnetism
A.J. Cox et al. Phys. Rev. B 49 (1994) 12295.
Examples for non-scalable properties
Stability
ReactivityMagnetism
S.C. Richtsmeier et al. J. Chem. Phys. 82 (1985) 3659.
Examples for non-scalable properties
Stability
Fen + H2
Electronic & geometricstructures
ReactivityMagnetism
Examples for non-scalable properties
Stability
How does the structure change with size?
Catalysis by gold clusters
The starting point
Haruta et al. J. Catal. 115 (1989) 301Interaction of the gold with the oxide support induces activity
Gold nano-particles @ α-Fe2O3, Co3O4, and NiO prepared by co-precipitationCatalytic oxidation of H2 and CO with air as oxidant
100-100 200 3000catalyst temperature (°C)
oxid
atio
n ef
ficie
ncy
of C
O (%
)
100
50
0
Au @ α-Fe2O3
Pd @ γ-Al2O3
Au powderα-Fe2O3
Au @ γ-Al2O3
Catalytic activity of gold nanoparticles
Haruta et al. J. Catal. 115 (1989) 301
• Activity increases with decreasing size• Most active particles are a few nm in diameter
1985 1990 1995 2000 2005 20100
100
200
300
400
500
600
700
800
year
Catalytic activity of gold nanoparticles
Haruta
Number of papers found (WoC) for
gold and clusters*
Nano-dispersed metal catalysts
What is the active site ?
Model systems: clusters on a substrateadsorbates on metal clusters
Cho: Science 299 (2003) 1684
Freund: Surf. Sci. 500 (2002) 271
Model reaction CO + O2 CO2
On a Pt surface: Langmuir-Hinshelwood mechanism
COgas COads
O2,gas 2 Oads
COads + Oads CO2,ads
CO2,gas
fast
rds
T. M. Bernhardt, Int. J. Mass Spectr. 243 (2005) 1.
Model reaction CO + O2 CO2
Y. Shi and K.M. Ervin, J. Chem. Phys. 108 (1998) 1757.
Catalytic cycles for the oxidation of CO on platinum cluster anions (n=3-6)Langmuir-Hinshelwood like mechanism
Interaction of oxygen with gold
• Au-O bond is too weak compared to O-O
• O2 does not dissociate on gold surfaces
• How oxidations with O2are taking place?
Chemisorption energy of O on fcc (111) surfaces from DFT calculations (PW91)
B. Hammer and J. K. Norskov, Adv. Catal., 45, 71 (2000).
Reactivity of gold clusters with molecular oxygen
■■
■ ■
■
■
■
■
Lee & Ervin J. Phys. Chem. 98 (1994) 10023
• No reaction of cationic or neutral gold clusters with O2
• High rate constants for gold anions containing an even number of Au atoms
Reactivity with O2 is related to the electron binding energy of the gold cluster
Low binding energy High reactivity
Properties of di-oxo species
126398499628EDiss [kJ/mol]
800-900≈ 11501555770ν [cm-1]
1.501.331.211.12d(O-O) [Å]
1.01.52.02.5BO
O22-
peroxideO2
-
superoxideO2 3Σg
-O2
+
σp*
π*
πσpσs
*
σs
EA0.5 eV
The structure of the Aun-O2- complexes
• O2 species can be identified from vibrational structure in photoelectron spectra
• Vibrational frequency of 1200 cm-1
corresponds to ν(O-O) of a superoxide ligand (O2
-)
Q. Sun, P. Jena, Y. D. Kim, M. Fischer, G. Ganteför, J. Chem. Phys. 2004, 120, 6510.
The binding of superoxide (O2-) to gold
The possibility to transfer an electron from the metal into the anti-bonding πg* orbital of the O2 is related to the electron binding energy of the metal cluster, i.e. its ionization energy.
T. M. Bernhardt, Int. J. Mass Spectr. 2005, 243, 1.
Ionization of a metal spherehν + AN AN
+ + e(Ekin)Ionization energy of the bulk: work function W
Ionization energies of metal clusters
Ioni
zatio
n en
ergy
(eV
)
10 5100N
( )δ
α+
++= ∞ 31
2
, NreZWIE
sZN
Neutral Cation (Z=0)“Ionization potential” IP
Anion Neutral (Z=-1)“Electron affinity” EA
IP and EA are approaching for N ∞ the bulk valueDeviations from the scaling law for small N
Ionization energies of gold clusters
Au configuration:
[Xe]4f145d106s1
Open shell / closed shelloscillation with n
Jackschath et al. Ber. Bunsenges. Phys. Chem. 96 (1992) 1200Taylor et al. J. Chem. Phys. 96 (1992) 3319
The electronic structure of gold clusters
Evolution of molecular s orbital energies and electron occupations with cluster size and charge state up to the trimer.
T. M. Bernhardt, Int. J. Mass Spectr. 243 (2005) 1.
Odd/even size effects can be seen for other ligands where electron transfer is relevant in the bonding
NO adsorbed on gold cluster cations
σ p*
π *
πσ pσ s
*
σ s
NO
Comparison between NO and CO complexes of Aun+
AunNO+ AunCO+
Vibrational spectroscopy probes electron transfer
PCCP, 7, 3906 (2005).
Bonding in the CO and NO complexes of Aun+
Cluster sizedependentactivation of NO on Aun
+
PCCP, 7, 3906 (2005).
Reaction kinetics of Au2- with O2 in the
presence of CO
L. D. Socaciu et al. J. Am. Chem. Soc. 125 (2003) 10437
p(CO)=0 p(CO)=p(O2) p(CO)=2p(O2)
Although at 300 K only complexes containing O2 are observed, the reaction mechanism must involve CO.
Au2- + O2 Au2 O2
-
Reaction kinetics of Au2- with O2 in the
presence of CO
L. D. Socaciu et al. J. Am. Chem. Soc. 125 (2003) 10437
Au2(CO)O2- co-adsorbates (?)
are observed in the mass spectra at low temperatures
Oxidation of CO by O2 on gold clusters
L. D. Socaciu et al. J. Am. Chem. Soc. 125 (2003) 10437
Mechanism of CO oxidation on Au2- from kinetic
measurements and DFT calculations
CO oxidation mechanism on gas phase gold clusters
• Activation of molecular oxygen on gold clusters occurs via electron transfer and formation of O2
-
species
• This demands that electron transfer is energetically feasible
• CO oxidation via Eley–Rideal Mechanism
CO combustion on small deposited Au clusters
Experiments of U. Heiz et al.:• Mass selected Aun clusters are
deposited on a MgO substrate• Effectivity of catalytic CO2 formation
from CO and O2 is measured• Au8 is highly active!• Reactivity is related to defect centers
U. Heiz et al. Chem. Phys., 262, 189 (2000).
What determines reactivity of deposited gold clusters?
Aun binds to a 2e- color center on MgO (oxygen vacancy)
Electropositive dopants of Aun enhance reactivity
A. Sanchez et al., J. Phys. Chem. A, 103, 9573 (1999).H. Häkkinen et al. Angew. Chem. Int. Ed., 42, 1297 (2003).
The binding of O2 to deposited gold clusters
1.940.180.47d(O-O) / Å1.371.281.43Eads / eV
Au4SrAu4Au8
O2 activation proceeds via electron transfer from (partially) negatively charged Au clusters.
Can we probe the charge (electron density) on the cluster?
H. Häkkinen et al. Angew. Chem. Int. Ed., 42, 1297 (2003).
Effect of charge on ν(CO): example of Rh8CO+/0/-
C OCO
p
s p
ssσ(3σ)
pσ(4σ)
pπ(1π)
sσ∗(5σ)
pπ∗(2π)
pσ∗(6σ)
M(σ) CO(5σ)σ donation
M(δ) CO(2π)π back donation
CM O
CM O
Observed values of ν(CO) for various systems
freeCO
M. Sterrer et al., Angew. Chem. Int. Ed. 45, 2630 (2006).
Assignments base on the dependence of ν(CO) on:
Particle growth methodDispersion / mean particle sizeSubstratePresence of substrate defects
and on comparison with theory
IR spectra of CO complexes of gold cluster in the gas-phase
Direct way to determine the dependence of ν(CO) on
Au5(CO)4+
cluster sizecharge state
coverageadsorption site
Au6(CO)6+
Size and charge dependence of ν(CO) for gold clusters
CO binds atop (µ1)
only to low coordinated Au atoms (ncoord < 5)
ν(CO) is highly sensitive to charge
Data from gas-phase clusters can be used as reference to probe partial charges of deposited clusters
Probing the charge: CO on gold clusters
DFT calculations: Charge on Au8bound to an F-centre on MgO ~ -0.5 e
CO is bound to positively polarized clustersNot the bare clusters are probed but co-adsorbates with
molecular oxygenBinding of O2 reduces initial charge on the cluster by ~ 1 e
(assuming binding as O2-)
Initial charge on Au8 is ~ -0.7 e
B. Yoon et al. Science 307 (2005) 403
JACS 127 (2005) 8416 J. Phys. Chem. B 109 (2005) 23935
Au8@MgO (defect-free)
Au8@MgO (defect-rich)
CO oxidation mechanism
1. Langmuir-Hinshelwood typeInitial binding of CO to an exposed gold atomMigration to the super-oxo groupReaction proceeds with low barrier (0.1 eV)
B. Yoon et al., U, Science, 307, 403 (2005).
Alternative direct mechanism
2. Eley-Rideal typeO2 is bound atopDirect reaction of O2
- with COReaction proceeds without barrier
A. Sanchez et al., J. Phys. Chem. A, 103, 9573 (1999).
LH or ER?
• Depends on how O2 is bound• Theory suggests that O2 at the interfacial site can be
stronger bound after distortion of the Au8 cluster• Spectroscopic studies on Au8@MgO are in line with
CO adsorbed on top of the cluster and co-adsorbed oxygen LH
• Identification and localization of O-O species needed
• Gas-phase clusters: direct reaction of CO and adsorbed O2 (ER)
Physical and chemical properties of small metal clusters (<100 atoms) are often strongly size-dependent.
Clusters are suitable model systems to develop and test concepts that can be transferred to deposited particles.
Compositions of cluster complexes in the gas phase can be unambiguously determined; reacting species are therefore clearly defined.
Size and composition specific characterization (kinetics, thermochemistry, spectroscopy etc.) is possible.
Clusters are suitable reference systems to identify effects related to charging.
Summary